Citation: Me. Hagan et Rg. Roble, Modeling diurnal tidal variability with the National Center for Atmospheric Research thermosphere-ionosphere-mesosphere-electrodynamics general circulation model, J GEO R-S P, 106(A11), 2001, pp. 24869-24882
Citation: Jm. Forbes et al., Simulations of diurnal tides due to tropospheric heating from the NCEP/NCAR Reanalysis Project, GEOPHYS R L, 28(20), 2001, pp. 3851-3854
Citation: Hl. Liu et al., Local mean state changes due to gravity wave breaking modulated by the diurnal tide, J GEO RES-A, 105(D10), 2000, pp. 12381-12396
Authors:
Oberheide, J
Hagan, ME
Ward, WE
Riese, M
Offermann, D
Citation: J. Oberheide et al., Modeling the diurnal tide for the Cryogenic Infrared Spectrometers and Telescopes for the Atmosphere (CRISTA) 1 time period, J GEO R-S P, 105(A11), 2000, pp. 24917-24929
Citation: Jm. Forbes et Me. Hagan, Diurnal Kelvin wave in the atmosphere of mars: Towards an understanding of'stationary' density structures observed by the MGS accelerometer, GEOPHYS R L, 27(21), 2000, pp. 3563-3566
Citation: Se. Palo et al., Middle atmosphere effects of the quasi-two-day wave determined from a General Circulation Model, EARTH PL SP, 51(7-8), 1999, pp. 629-647
Citation: D. Galindo et Me. Hagan, Procedure to prevent cast breakage during separation from elastomeric impressions, J PROS DENT, 81(1), 1999, pp. 37-38